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Medicinal Soap Comprising Sapropel - Patent 7871968

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Medicinal Soap Comprising Sapropel - Patent 7871968 Powered By Docstoc
					


United States Patent: 7871968


































 
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	United States Patent 
	7,871,968



 Bevan
,   et al.

 
January 18, 2011




Medicinal soap comprising sapropel



Abstract

The present invention provides soap, including glycerine and sapropel. It
     also provides therapeutic uses thereof.


 
Inventors: 
 Bevan; Rupert (Radstock, GB), Smith; Michael John (Bath, GB) 
 Assignee:


Saponaqua International Limited
 (London, 
GB)





Appl. No.:
                    
10/597,440
  
Filed:
                      
  January 21, 2005
  
PCT Filed:
  
    January 21, 2005

  
PCT No.:
  
    PCT/GB2005/000226

   
371(c)(1),(2),(4) Date:
   
     April 12, 2007
  
      
PCT Pub. No.: 
      
      
      WO2005/070385
 
      
     
PCT Pub. Date: 
                         
     
     August 04, 2005
     


Foreign Application Priority Data   
 

Jan 26, 2004
[GB]
0401634.1



 



  
Current U.S. Class:
  510/130  ; 424/70.1; 510/159; 510/458; 510/462; 510/481; 510/491
  
Current International Class: 
  A61K 8/00&nbsp(20060101)

References Cited  [Referenced By]
U.S. Patent Documents
 
 
 
3772191
November 1973
Thorn

6267962
July 2001
Hart et al.

2005/0112084
May 2005
O'Grady et al.

2006/0121807
June 2006
Albrecht et al.

2008/0251462
October 2008
Bevan



 Foreign Patent Documents
 
 
 
451559
Aug., 1936
GB

2200351
Aug., 1988
GB

64548
Oct., 1978
RO

79211
Jun., 1982
RO

2091538
Sep., 1997
RU

2124397
Jan., 1999
RU

2180213
Jul., 2000
RU

2170094
Jul., 2001
RU

2185814
Jul., 2001
RU

2180213
Mar., 2002
RU

2197224
Jan., 2003
RU



   Primary Examiner: Ogden, Jr.; Necholus


  Attorney, Agent or Firm: Pabst Patent Group LLP



Claims  

The invention claimed is:

 1.  A soap comprising glycerine and dried sapropel, wherein in the soap is a solid soap.


 2.  The soap of claim 1, wherein the soap is a sodium soap.


 3.  The soap of claim 1, wherein the soap is a potassium soap.


 4.  The soap of claim 1, wherein the sapropel is white sapropel.


 5.  The soap of claim 1, wherein the sapropel is black sapropel.


 6.  A process for making soap, the process including the steps of adding dried sapropel to the reactants and not removing the resultant glycerine from the end product or adding glycerine to the end product, wherein the soap is a solid soap.


 7.  A method for treating a skin disease or condition comprising applying the soap of claim 1 to affected areas of skin in an effective amount to alleviated one or more symptoms of the skin disease or condition.


 8.  The method of claim 7 wherein the skin disease or condition is selected from the group consisting of acne, eczema, dermatitis, psoriasis, athlete's foot and skin allergies.  Description  

This
application is a National Stage of International Application No. PCT/GB2005/000226 filed on Jan.  21, 2005, which claims priority to GB Application No. 0401634.2 filed on Jan.  26, 2004.


The present invention relates to a surfactant.  More particularly, the present invention relates to a surfactant used for cleaning.  More particularly, the present invention relates to soap.  In one embodiment, the present invention relates to a
medicinal soap that alleviates and/or arrests the symptoms brought about by, or associated with, diseases and/or conditions such as eczema, dermatitis, acne, psoriasis, athlete's foot and various skin allergies.


Soap is an anionic surfactant.  Soaps are made from fats and oils, or their fatty acids, by treating them chemically with a strong alkali.  The fats and oils used in making soap generally come from animal or plant sources.  Each fat or oil is
made up of distinctive mixture of several triglycerides, each triglyceride including three fatty acid molecules attached to one molecule of glycerine.  There are many different types of triglycerides; each type consisting of its own particular
combination of fatty acids.


Saponification of fats and oils is the most commonly used soap making process.  This involves heating the fats and oils, and reacting them with an alkali, usually in liquid form, to produce soap and water (neat soap) and glycerine.


Another process for making soap involves the neutralisation of fatty acids with an alkali.  In this process, the fats and oils are hydrolysed with a high pressure steam to yield crude fatty acids and glycerine.  The fatty acids are then purified
by distillation and subsequently neutralised with an alkali to produce soap and water (neat soap).


One of the by-products of the soap making process is glycerine.  Glycerine is usually removed from the final product, because it is inclined to soften the soap and moreover, due to its inherent moisturising qualities is perceived to have greater
value as a base for shampoos, bath oils, skin creams and like products.


When the alkali is sodium hydroxide, a sodium soap is formed.  Sodium soaps are "hard/solid" soaps.  When the alkali is potassium hydroxide, a potassium soap is formed.  Potassium soaps are softer and are found in some liquid hand soaps and
shaving creams.  Contextually, it is to be understood that any reference to a sodium soap is to be construed to mean that the soap product is hard or in solid form, for example, a bar of soap of any shape, and that any reference to a potassium soap is to
be construed to mean that the soap product is in liquid or gel form, for example, a liquid hand soap.


Some soaps tend to absorb moisture from the skin leaving the skin dry.  This can exacerbate certain skin conditions caused by dry skin, for example, eczema.  In addition, it is not uncommon for certain constituents of soap, for example,
colourants etc. added to the soap to make it more desirable to act as an allergen.  As a result, there is a need to provide soaps, which are moisturising and/or hypoallergenic.


Sapropel is a clay-like material, which is known as a source material for oil and natural gas.  The term, sapropel, is derived from the Greek sapros, meaning "decayed" and pelos meaning "mud", and denotes a range of marine and lacustrine
sediments containing organic and inorganic components.  Sapropels range from the black organic oozes associated with the Silurian rock formations to variously coloured Holocene deposits.


Tabulated below is a list of countries and regions of the world where sapropel is reported to be found, together with a description of geological age.


 TABLE-US-00001 TABLE 1 Table 1: Countries and regions of the world where sapropel is reported to be found, together with description of geological age.  Source: Andersons (1996).  Continent Type of deposit Northern Europe: Finland Lacustrine
Quaternary Sweden '' Estonia '' Larvia '' Lithuania '' Denmark '' Netherlands '' Baltic Sea Marine Quaternary Central Europe: Czech Republic Lacustrune Quarternary East Germany '' Poland '' Northern Italy '' Romania '' Southern Europe: Mediterranean Sea
Marine Silurian - Quarternary Black Sea region '' CIS: Belarus Lacustrine Quaternary Ukraine '' Russia '' Kaleria '' Siberia: Omsk '' Yakutsk '' Nizhny Novgorod '' Tomsk '' The USA: Arkansas Lacustrine Quaternary Florida '' Minnesota '' Nebraska ''
Wisconsin '' Canada Lacustrine Quaternary South America: Venezuelan coast Marine Quarternary Australia: Lake Cooroong Lacustrine Quarternary Africa: Namibia Lacustrine Quaternary


Deposits of sapropel are mainly associated with sub-boreal lakes of Northern Europe, Siberia, Canada and the northern states of the U.S.A.  Within Europe there are concentrations of sapropel-rich lakes in Karelia, Estonia, Latvia, Lithuania,
Poland and the Czech Republic.  Smaller amounts are reported to exist in Denmark, Finland, Sweden, the Netherlands, northern Italy and eastern parts of Germany.  Extensive deposits are also found in the Russian Federation, Belarus and Ukraine.


As will be appreciated, not all sapropels are found as lake deposits.  They may have their origin in peat formed in subsequent layers of vegetation.  For example, sapropel from the Lake Sakhtysh region of north-west Russia is mined from beneath
dry peat land.


Marine sapropels can also occur which are also Holocene.  They are associated with the seas bordering arid regions, such as Namibia and the Sierra Nevada of Venezuela, and the eastern Mediterranean and Black Sea in Europe.


In the European regions, sapropels have been reported to form at a rate of 1 mm per annum.  The organic components of sapropel accumulates in micro-laminations from a continuous rain of organic debris originating in vast reed beds bordering the
lakes and is therefore autochthonous, i.e. originating from within the area of the lake.  The inorganic component of sapropel is probably allochthonous, i.e. originating from outside the lake, but the migration of certain minerals such as calcium,
magnesium and sulphur may originate from allochthonous organic sources.


Many sapropels are almost white-to-cream coloured.  This reflects the amount of organic matter contained therein.  As will be appreciated, as the organic component within the sapropel increased it will assume a darker colour; some sapropels are
jet black.


Sapropels exhibit varying alkalinity.  In this connection, sapropels having a pH greater than 7 are termed "lime-sapropels" and are usually characterised by the presence of several species of snails.


Sapropel can form in marine environments, as well as in freshwater lakes.


In marine environments, where the sea floor is too deep to allow oxygen to remain dissolved, sulphur-rich water acts as a reducing agent and provides an environment where organic debris can form sapropel.  The sulphur itself is derived from the
partial decomposition of plant and animal matter.  In the areas of the sea beds where deposits of sapropel are found, the adjacent landmass is usually arid and well-leached of plant-growth supporting minerals.  This may result in a correspondingly high
supply of nutrients supporting a rich diversity of biota off the coast.


Typically, sapropel-rich lakes are situated on low-lying land.  Generally, the lake bedrock is relatively insoluble and the lakeside soils tend to be podzols, from which nutrients are easily leached.  As will be appreciated, the lakes themselves
become sumps for these mobilised mineral salts, which are assimilated by reed beds that act as water-purifying agents.  Sapropel forms on the lake floor in much the same way as peat forms on a raised or blanket bog.  The organic compound is derived from
limnic (surface) vegetation, in particular, reeds.  As these herbaceous plants pass through their annual cycle of growth and decay, they give rise to a continuous stream of organic waste material that accumulates on the lakebed.  Here decomposition is
continued in the form of digestion of the lignified tissues.  Sulphur from protein bonding is liberated in the form of hydrogen sulphide gas, which combines with dissolved oxygen to form soluble sulphurous acid.  In a typical sapropel lake, there is
little replacement oxygen as the water tends to be stagnant, and after a while, all the available oxygen is used up such that decomposition slow down, and eventually stops altogether.  Thereafter, the digestion of organic material becomes anaerobically
controlled, giving rise to chemical reductions and the precipitation of certain minerals.


Some lakes have been accumulating sapropel undisturbed for over 10,000 years.  In some places, deposits of sapropel have displaced nearly all of the water.  For example, Lake Zebris in Latvia has approximately a half meter depth of water
remaining.


As will be appreciated not all sapropel deposits are found in the lacustrine environment.  For example, in the Lake Sakhtysh region of northern Russia, water has receded in recent time and some of the former lake land has undergone a succession
to moss or reed beds, with a layer of peat formed above the sapropel deposit.


In the past, sapropel has been utilised as a fertiliser.  In this connection, the use of sapropel as a fertiliser has not been pursued due to its low nitrogen content; this, despite the fact, that many attempts have been made to increase its
nitrogen content.  In addition; due to its mineral content, sapropel has also been utilised in some courtiers as a supplement to animal feed. 

In a first aspect of the present invention there is provided soap characterised in that the soap
includes sapropel and glycerine.


Based on their research, the inventors have surprisingly discovered that there is a synergy between glycerine, which is usually removed from soap, and sapropel when present in soap.  Such synergy resulting in a soap which is not only
moisturising, but also arrests or reverses the symptoms, for example, cracked skin, associated with, or brought about by, skin complaints, diseases or conditions such as eczema, dermatitis, psoriasis, acne, athlete's foot and skin allergies.


In a further aspect of the present invention there is provided the soap of the present invention for use as a medicament.  In particular, the soap of the present invention can be used to arrest or reverse the symptoms of cracked skin and/or
itchiness and/or weeping and/or rashes indicative of skin complaints or conditions such as eczema, dermatitis, psoriasis, acne, athletes foot and skin allergies.


In addition, another advantage of including sapropel is that being mildly abrasive it has the added advantage of acting as an exfoliant.


A process for making three non-limiting embodiments of soap in accordance with the present invention will now be described by way of reference to Table 1 below, which lists the reactants utilised to make three different types of soap of the
present invention.  Such soaps internally designated 1398, 1397 and 1393 respectively.


 TABLE-US-00002 TABLE 1 Oil Sapropel Olive Coconut Castor Fragrance g Dry Sapropel Oil % Oil % Oil % Beeswax % Colour Rainwater g NaOH g white g Dry black g Function Main Lathering Hardener Catalyses Appeal ingredient agent saponification Soap
1398 48 42 8 2 Bay Rum 60 3165 1297 10 Bay Rum Rosewood 30 100 .times.  80 g bars Orange 20 approx Pine 10 Oil mass: Turmeric 20 8332 g (5% superfatted*) Soap 1397 66 30 2 2 Orange 60 3165 1245 10 Pelo Two Bergamot 30 Oil mass: Bay Rum 20 8334 g Pine 5
(5% superfatted*) Turmeric 20 Soap 1393 50 40 5 5 Pine 50 3040 1222 160 Pelo Hortus Litsia 10 (5% superfatted*) Bergamot 10 Chlorophyll 20 *superfatted = % of surplus of oils over that usually required to achieve saponification


The sapropel component of the soap was first prepared.  In the event that the sapropel component was black sapropel, it was oven dried by convection and then dry roasted to arrive at a fine powder.  In the event that the sapropel component was
white sapropel, it was air dried and subsequently ground to form a fine powder.


The beeswax, which was included to catalyse the saponification reaction resulting in the soap, was then heated until it was in liquid form.  So too were the coconut oil and the olive oil.  Both were heated to approximately 65.degree.  C. and
then, with a view to facilitating the blending of the oils, were cooled to 40.degree.  C.


The NaOH was then added to the water and was allowed to stand until it had reached the same temperature as the oils, approximately 40.degree.  C.


The oils and mixture of water an NaOH were then added to a batch reactor, preferably a steam double boiler with offset rotary paddle.  In addition, in order to catalyse the reaction, soap from a previous batch was also added to the reactant
mixture.


After about an hour, the pH of the reactant mixture was tested.  When a pH of about 8 had been reached the desired fragrances and colour constituents were added.


The resultant mixture, whilst still in a liquid state, was subsequently poured off into stainless steel column moulds, insulated and placed in a warm room where they remained for 6 days.  This enabled the saponification reaction to continue in
the moulds until the mixture solidifies.


The resultant soap was then removed from the moulds and allowed to dry for a further 2 weeks.  The soap was then subsequently cut into bars and stacked for 8 weeks, during which time the soap loses water, shrinks and stabilises.


As regards the tests conducted with a view to confirming the efficacy of the soap of the present invention as a medicament, which can arrest and/or reverse symptoms such as cracked skin and/or itchiness and/or weeping and/or rashes associated
with skin complaints and diseases such as eczema, dermatitis, acne, psoriasis, athlete's foot and allergies; the following investigations were conducted.


A test group of approximately 30 people of mixed gender and varying age all suffering from at least one of the above skin conditions were selected.


Each member of the group was told to discontinue any previous medications they may have been using at the time to arrest or treat the symptoms associated with the skin condition/disease from which they suffered, and moreover, were instructed to
wash the affected area of their body with warm water and the soap of the present invention at least twice daily.


Tabulated below are some of the results of our investigations:


 TABLE-US-00003 Gender Age Condition Symptoms Observations Male 43 Psoriasis Patches of Symptoms alleviated itchy, scaly within 10 days of skin starting treatment Female 51 Psoriasis Patches of Symptoms alleviated itchy, scaly within 3 days of
skin starting treatment Female 45 Psoriasis Patches of Symptoms alleviated itchy, scaly within 4 days of skin starting treatment Female 5 Eczema Dry, itchy Symptoms almost patches of eradicated after 7 days skin of starting treatment Female 25 Eczema
Areas of Symptoms almost dry, itchy eradicated overnight skin particularly around the eyebrows, hairline and between fingers Female 25 Daffodil Red, puffy, Symptoms eradicated Allergy itchy areas almost overnight after of skin on starting treatment arms
Male 4 Eczema Itchy, Symptoms eradicated scratchy, by daily washing after weeping approximately 3 days eyes Male 44 Athletes Itchy, Symptoms eradicated Foot cracked within 3 days of skin starting treatment between toes Male 50 Athletes Itchy, Symptoms
eradicated Foot cracked within 4 days of skin starting treatment between toes Male 18 Acne Acne to the Spots cleared up within face about 8 weeks of starting treatment


The inventors also conducted a case study of a female of approximately 25 years of age who has suffered from the following conditions:


Psoriasis


The subject suffered from sporadic psoriasis around hairline, ears and eyebrows.


After utilising the soap of the present invention, the subject noticed that the areas affected by the condition were less inflamed and sore.  After using the soap a second time there was a reduction in inflamed skin.


After approximately 4 days of using the soap, the sore patches cleared up.


Any re-occurrences of the symptoms associated with the condition were quickly relieved utilising the soap.  The subject also observed that even when washing her face with the soap of the present invention, her skin stayed soft and remained so
without irritation.


Eczema


The subject also suffered from sporadic eczema between her fingers.


At the first sign of itching, the subject utilised the soap on the affected areas.  The redness and itchiness associated with her condition was alleviated almost immediately.  After using the soap of the present invention 3 times in one day, the
eczema had almost cleared up completely.  On the second day of starting her treatment, all symptoms had diminished.


Chronic Allergic Reactions


The subject suffered from a plethora of skin reactions brought about by certain allergens.


Allergen 1


The sap of daffodils had left the subject's skin covered in a red, itchy and inflamed rash.  After a week of severe discomfort, the subject utilised the soap.  The symptoms associated with this condition were alleviated almost immediately after
one application of the soap.  After 3 days of continuing with the use of the soap, the rash had completely disappeared.


Allergen 2


The subject suffered an allergic reaction from stick sap.  The sap produced a burning reaction of the skin.  As soon as the subject began to feel the symptoms of an allergic reaction, the subject immediately washed the affected area thoroughly
with the soap of the present invention.  This stopped the reaction completely and soothed any inflammation that had started to develop.  Previously, it had taken the subject between a week and a fortnight to recover from such an exposure to plant sap.


Allergen 3


The subject also reacts to exposure to sun.  Usually, the exposure results in raised lumps and blotches.  Could be said to resemble hives.  By utilising the soap of the present invention, the subject noticed that the symptoms associated with
exposure to the sun, namely, the raised lumps and blotches which prickled, were alleviated.


From the above it was observed that in all cases a marked improvement was exhibited shortly after starting treatment with the soap of the present invention.


The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the
disclosed result, as appropriate, may separately, or in any combination of such features, be utilised for realising the invention in diverse forms thereof.


In the present specification "comprises" means "includes or consists of" and "comprising" means "including or consisting of".


* * * * *























				
DOCUMENT INFO
Description: Thisapplication is a National Stage of International Application No. PCT/GB2005/000226 filed on Jan. 21, 2005, which claims priority to GB Application No. 0401634.2 filed on Jan. 26, 2004.The present invention relates to a surfactant. More particularly, the present invention relates to a surfactant used for cleaning. More particularly, the present invention relates to soap. In one embodiment, the present invention relates to amedicinal soap that alleviates and/or arrests the symptoms brought about by, or associated with, diseases and/or conditions such as eczema, dermatitis, acne, psoriasis, athlete's foot and various skin allergies.Soap is an anionic surfactant. Soaps are made from fats and oils, or their fatty acids, by treating them chemically with a strong alkali. The fats and oils used in making soap generally come from animal or plant sources. Each fat or oil ismade up of distinctive mixture of several triglycerides, each triglyceride including three fatty acid molecules attached to one molecule of glycerine. There are many different types of triglycerides; each type consisting of its own particularcombination of fatty acids.Saponification of fats and oils is the most commonly used soap making process. This involves heating the fats and oils, and reacting them with an alkali, usually in liquid form, to produce soap and water (neat soap) and glycerine.Another process for making soap involves the neutralisation of fatty acids with an alkali. In this process, the fats and oils are hydrolysed with a high pressure steam to yield crude fatty acids and glycerine. The fatty acids are then purifiedby distillation and subsequently neutralised with an alkali to produce soap and water (neat soap).One of the by-products of the soap making process is glycerine. Glycerine is usually removed from the final product, because it is inclined to soften the soap and moreover, due to its inherent moisturising qualities is perceived to have greatervalue as a base for sha